8 results on '"Lei, M.K."'
Search Results
2. Controllable wettability of poly(ethylene terephthlate) film modified by oxygen combined inductively and capacitively coupled radio-frequency plasma
- Author
-
Lei, M.K., Liu, Y., and Li, Y.P.
- Subjects
- *
POLYMERS , *THIN films , *OXYGEN , *PLASMA gases , *CONTACT angle , *SURFACE roughness , *PLASMA density - Abstract
Abstract: Poly(ethylene terephthalate) (PET) film was modified by using oxygen combined inductively coupled radio-frequency plasma (ICP) and capacitively coupled radio-frequency plasma (CCP) at the radio-frequency (RF) power of 200W and 100W, respectively, for a treatment time up to 300s. The RF plasma modification under the combined ICP and CCP mode with the controllable oxygen plasma density and oxygen ion-flux energy significantly improved the wettability of PET film, due to the creation of the polar functional groups containing oxygen, such as C–O and O–Ce increase of the surface roughness. At a low surface roughness, the polar functional groups on the PET film affected both the advancing contact angles and receding contact angles. When the surface roughness increased over a threshold, the advancing contact angles mainly depended on the polar functional groups, and the receding contact angles were particularly dependent on the surface roughness. Therefore, the controllable advancing contact angles and receding contact angles on the plasma-modified PET film were independently determined by plasma functionalization and plasma etching under the combined ICP and CCP mode. [Copyright &y& Elsevier]
- Published
- 2011
- Full Text
- View/download PDF
3. Dry sliding tribological behavior of AZ31 magnesium alloy irradiated by high-intensity pulsed ion beam
- Author
-
Li, P., Lei, M.K., and Zhu, X.P.
- Subjects
- *
TRIBOLOGY , *MAGNESIUM alloys , *ION bombardment , *MECHANICAL wear , *ELECTRON probe microanalysis , *DRYING , *AXIAL loads - Abstract
Abstract: The dry sliding tribological behavior of AZ31 magnesium alloy irradiated by high-intensity pulsed ion beam (HIPIB) at energy density of 3.4J/cm2 with 10 shots is investigated by dry sliding wear tests in order to explore the effect of HIPIB irradiation on tribological property of magnesium alloy. Surface morphologies, composition and structure of the irradiated AZ31 magnesium alloys are examined by electron probe microanalysis (EPMA) and X-ray diffraction (XRD). The results indicated that HIPIB irradiation led to the increase in surface microhardness and the reduction in friction coefficient and wear rate. Wear rate for both the original and the irradiated samples increased with increasing sliding load from 0.1 to 0.5N. The transition from severe metallic wear to mild oxidative wear induced by HIPIB irradiation was observed by a combined analysis in surface morphology and chemical composition of wear tracks, mechanically mixed materials and wear debris, which is mainly attributed to the significant increase in microhardness resulting from grain refinement on the irradiated surface. In addition, defects induced by HIPIB irradiation promoted the diffusion of oxygen during sliding wear and therefore led to the formation of compact mixed materials and protective films on the wear tracks surface, which also contributes to the transition in wear mechanism of AZ31 magnesium alloy induced by HIPIB irradiation. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
4. Duty cycle dependent chemical structure and wettability of RF pulsed plasma copolymers of acrylic acid and octafluorocyclobutane.
- Author
-
Muzammil, I., Li, Y.P., Li, X.Y., and Lei, M.K.
- Subjects
- *
ACRYLIC acid , *CYCLOBUTANE derivatives , *COPOLYMERS , *LOW density polyethylene , *SURFACE chemistry - Abstract
Octafluorocyclobutane and acrylic acid (C 4 F 8 -co-AA) plasma copolymer coatings are deposited using a pulsed wave (PW) radio frequency (RF) plasma on low density polyethylene (LDPE). The influence of duty cycle in pulsed process with the monomer feed rate on the surface chemistry and wettability of C 4 F 8 -co-AA plasma polymer coatings is studied. The concentration of the carboxylic acid (hydrophilic) groups increase, and that of fluorocarbon (hydrophobic) groups decrease by lowering the duty cycle. The combined effect of surface chemistry and surface morphology of the RF pulsed plasma copolymer coatings causes tunable surface wettability and surface adhesion. The gradual emergence of hydrophilic contents leads to surface heterogeneity by lowering duty cycle causing an increased surface adhesion in hydrophobic coatings. The C 4 F 8 -co-AA plasma polymer coatings on the nanotextured surfaces are tuned from repulsive superhydrophobicity to adhesive superhydrophobicity, and further to superhydrophilicity by adjusting the duty cycles with the monomer feed rates. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
5. Wear and corrosion resistance of CrN/TiN superlattice coatings deposited by a combined deep oscillation magnetron sputtering and pulsed dc magnetron sputtering.
- Author
-
Ou, Y.X., Lin, J., Tong, S., Che, H.L., Sproul, W.D., and Lei, M.K.
- Subjects
- *
SURFACE coatings , *CORROSION resistance , *MAGNETRON sputtering , *THIN films , *PHYSICAL vapor deposition - Abstract
Deep oscillation magnetron sputtering (DOMS) is a novel high power impulse magnetron sputtering technique, which offers large voltage oscillation packets to generate a stable high-power discharge plasma with high ionization under virtually arc-free conditions. CrN/TiN superlattice coatings were deposited using a combined DOMS and pulsed dc magnetron sputtering (PDCMS) in a closed field unbalanced magnetron sputtering configuration. The Cr target was powered at 400 W by DOMS and Ti target was powered at 2000 W by PDCMS. The negative substrate bias ( V s ) ranged from 0 V to −100 V. As the V s was increased, CrN/TiN superlattice coatings showed a single phase face-centered cubic structure with a strong (1 1 1) texture. Correspondingly, the coatings exhibited the dense microstructure with well-defined interfaces between CrN and TiN layers. The increase in V s led to a decrease in grain size and an increase in the compressive residual stress. The hardness and Young's modulus of the coatings increased with increasing V s . The H / E * and H 3 / E * 2 ratios and critical loads L C in scratch test showed an initial increase, followed by a decrease. The wear mechanism changed from severe adhesion wear to abrasion wear. The coating deposited at V s = −60 V exhibited mild abrasion wear with the lowest friction coefficient of 0.27 and the lowest specific wear rate of 0.5 × 10 −6 mm 3 N −1 m −1 due to high hardness, H / E * and H 3 / E * 2 ratios, L C1 and L C3 of 36 GPa, 0.094, 0.316, 15.3 N and 24 N, respectively. The coatings also exhibited increasing pitting corrosion resistance with lower current density and higher corrosion potential in 3.5 wt% NaCl aqueous solution. Combined DOMS + PDCMS techniques can provide the engineering surfaces for the industrial applications with the combined improvement in wear and corrosion resistance. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
6. The effect of plasma modification on the sheet resistance of nylon fabrics coated with carbon nanotubes
- Author
-
Zhang, Wei, Johnson, Les, Silva, S. Ravi P., and Lei, M.K.
- Subjects
- *
SINGLE walled carbon nanotubes , *NYLON , *SURFACE coatings , *LOW pressure (Science) , *ARGON plasmas , *SCANNING electron microscopy , *SURFACE roughness - Abstract
Abstract: Low-pressure oxygen and argon plasmas were used to pre-treat nylon fabrics, and the modified fabrics, together with the raw fabrics, were subsequently coated with single walled carbon nanotubes (SWCNTs) by a dip-drying process. Scanning electron microscopy (SEM) and Raman spectroscopy analyses indicated the attachment of SWCNTs onto nylon fabrics. After the coating with SWCNTs, the plasma modified fabrics exhibited sheet resistance of as low as 2.0kΩ/sq. with respect to 4.9kΩ/sq. of the raw fabrics, presumably owing to the increase of fibre surface roughness incurred by the plasma modification, which is evidenced by SEM analyses. Fourier transform infrared spectroscopy (FTIR) analysis indicates the incorporation of oxygen functionalities on fibre surfaces in the plasma modification. This is responsible for the variation of the electrical conductance of SWCNT-coated fabrics with the type of plasma and the duration of plasma ablation. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF
7. Phase transformation of graphite irradiated by high-intensity pulsed ion beams
- Author
-
Han, X.G., Miao, S.M., Zhu, X.P., and Lei, M.K.
- Subjects
- *
GRAPHITE , *ION bombardment , *PHASE transitions - Abstract
Abstract: The microstructure and morphology of graphite irradiated by high-intensity pulsed ion beams (HIPIB) has been studied by varying the ion current density as 200, 350 and 1500A/cm2 with one to five shots. Phase transformation from graphite to diamond-like carbon (DLC) on the HIPIB-irradiated graphite was confirmed by Raman spectroscopy where a typical broadened asymmetric peak appeared in the wavenumber range of 1100–1700cm−1. Formation of DLC on the irradiated graphite strongly depended on the HIPIB parameters and preferably took place at the medium ion current density of 350A/cm2 up to five shots. Numerical simulation of ablation process was performed to explore the transformation mechanism of DLC from graphite irradiated by HIPIB. The calculation showed that the temperature profile in irradiated graphite at 350A/cm2 is almost identical to that at 200A/cm2, showing a deeper heat-affected zone in comparison with that of 1500A/cm2. Moreover, the ablation depth per shot is around 0.8μm at 350A/cm2, higher than that of 0.4μm at 200A/cm2 and much lower than that of 8.4μm at 1500A/cm2, respectively. The experimental and numerical results indicate that a proper temperature and pressure repetitively created in the top layer of ablated graphite during HIPIB irradiation facilitates the phase transformation. [Copyright &y& Elsevier]
- Published
- 2007
- Full Text
- View/download PDF
8. Droplets from the metal surfaces irradiated by a high-intensity pulsed ion beam
- Author
-
Dong, Z.H., Zhang, Z., Liu, C., Zhu, X.P., and Lei, M.K.
- Subjects
- *
ION bombardment , *ELECTRON microscopes , *METALS , *X-ray spectroscopy , *SPECTRUM analysis - Abstract
Abstract: Droplet behavior from the surfaces of pure metals Ti and Al ablated by high-intensity pulsed ion beam (HIPIB) with an ion current density from 30 to 200A/cm2 has been investigated to explore the mechanism of mass transfer on HIPIB-irradiated materials. Droplet ejection on the ablated metal surface is studied by scanning electron microscope observation, energy dispersive X-ray spectroscopy analysis and profilometer measurement. The presence of ejected droplets from the irradiated surfaces is detected on both the surfaces of irradiated metals and substrates locating adjacent to the ablated surfaces. Moreover, the number density of droplets observed on both the surfaces tends to increase with increasing the ion current density. This phenomenon correlates to the fact that higher ion-beam intensity led to a more intense ablation, i.e. a severer droplet ejection. In addition, surface roughness (R a) for the respective metals is continuously increased with increasing the ion current density, indicating a more significant disturbance on the melted surfaces caused by the correspondingly severer droplet ejection. Combined with the previous finding of selective ablation on titanium, it is concluded that the droplet ejection is the efficient cause of cratering and disturbance on HIPIB-ablated surfaces. [Copyright &y& Elsevier]
- Published
- 2006
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.